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www.gi.org/research‐awards
Read the Grant Flyer, FAQs, or visit the webpage for the RFAs.
Grant System Opens: September 8, 2020Deadline: December 4, 2020
SEVEN different award types; INCREASED Junior Faculty FUNDING; NEW Mid‐Career Bridge Funding; Med Resident and Student Awards
Welcome to the Virtual Grand Rounds Waiting Room – The educational activity will begin promptly at 12 Noon Eastern.
The Premier GI Clinical Meeting & Postgraduate Course
On‐Demand Access Start TOMORROW!
Visit acgmeetings.gi.org to Register!
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Participating in the Webinar
All attendees will be muted and will remain in Listen Only Mode.
Type your questions here so that the moderator can see them. Not all questions will be answered but we will get to as many as possible.
How to Receive CME and MOC PointsLIVE VIRTUAL GRAND ROUNDS WEBINAR
ACG will send a link to a CME & MOC evaluation to all attendees on the live webinar.
ABIM Board Certified physicians need to complete their MOC activities by December 31, 2020 in order for the MOC points to count toward any MOC requirements that are due by the end of the year. No MOC credit may be awarded after March 1, 2021 for this activity.
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MOC QUESTION
If you plan to claim MOC Points for this activity, you will be asked to: Please list specific changes you will make in your
practice as a result of the information you received from this activity.
Include specific strategies or changes that you plan to implement.THESE ANSWERS WILL BE REVIEWED.
ACG Virtual Grand RoundsJoin us for upcoming Virtual Grand Rounds!
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Week 31: Special Considerations When Discussing Diet Elimination for EoENirmala Gonsalves, MDOctober 22, 2020 at Noon EDT
Week 30: Pouch or True “Ouch”?‐Avoid Common Mistakes in the Diagnosis and Management of Ileal Pouch DisordersBo Shen, MD, FACGOctober 8, 2020 at Noon EDT
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The Premier GI Clinical Meeting & Postgraduate Course
On‐Demand Access Start TOMORROW!
Visit acgmeetings.gi.org to Register!
Disclosures:
Darwin L. Conwell, MD, MS, FACGNo conflicts of interest.
Jodie A. Barkin, MDScientific Advisor for AbbVie and Nestle Health Sciences
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Treating the Pain of Chronic Pancreatitis: Never Lose Infinite Hope
Darwin L. Conwell, MD, MSc, FACGProfessor of Medicine
Floyd Beman Chair in GastroenterologyDirector, Division of Gastroenterology, Hepatology and
NutritionCo‐Director, Digestive Disease Area of ConcentrationThe Ohio State University Wexner Medical Center
Columbus, Ohio
10NEJM 1995
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SAPE Hypothesis• Acinar cell stimulation
– Alcohol, gallstone, TG, oxidative stress
• Sentinel Event– Early: pro‐inflammatory response– Late: Stellate cells, pro‐fibrotic
response
• Removal of stimulus– Abstinence– cholecystectomy– lipid lowering agents
• Recurrent stimulation– Stellate cell mediated periacinar
fibrosis
A
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Whitcomb D, Best Prac and Res in Clin Gastro 2002; 16:347
C D
Stellate Cells Mediate Fibrosis in CP
Jaster, R., Molecular Cancer 2004.
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Risk of RAP is primarily influenced by etiology
Am J Gastro 2012;107:1096‐103 Am J Gastro 2009;104:2797‐805
Allegheny County, PA, USA 1996‐2005
Luneberg, Germany 1997‐2004
Alcohol vs. other etiologies
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Progression from AP to CP: Population studiesCountry Years Sample
sizeFollow up
(years)Etiology CP (%)
Netherlands 1985-90 9579 5 All 6Germany 1997-2004 532 7.8
(median)All 4
Alcohol 13Idiopathic None
Japan 1987 714* 13 (min.) All 15Alcohol 26
Idiopathic 13Denmark 1977-82 352 Until 2008 All 24
Alcohol 32Non-alcohol 20
USA 1996-2005 6010 ~4 All 6Alcohol 12
Non-alcohol 4*Total sample – 2533 Scand J Gastro 2000; Am J Gastro 2009; Clin Gastro Hepatol 2009; Pancreas 2011; Am J Gastro 2011
Recurrent Acute Pancreatitis• ≥2 episodes of AP with resolution of symptomatic and imaging abnormalities between episodes
• Occurs in ~20% of AP patients• RAP is the strongest risk factor for progression to CP– HR of 4.57 (95% CI 3.40‐6.14)
Yadav. Gastroenterology 2013;144:1252.Yadav. Am J Gastroenterol 2012; 107:1096.Lankisch. Am J Gastroenterol 2009;104:2797.
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• Biomarker Discover / Development • Yellow Zone – RAP, “Early CP”
Whitcomb, DC, et al., Pancreatology 2016
Mechanistic DefinitionWindow of opportunity
Conceptual framework – CP
Modified from: Colombel J et al. Gastroenterology 2017;152:351-61
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Chronic Pancreatic Pain
• The most common feature of disease• Detrimental effects on quality of life• Intermittent, constant• Response to therapy unpredictable, inconsistent and often inadequate
• Placebo response 20 ‐ 30 %• Addiction potential 20%
Forsmark C. , Gastroenterology 2013Forsmark C., Liddle, R., Gastroenterology 2012 19
What Medical Therapy Works?
Answer:
?
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Hypothetical Time‐Course of Pain in Chronic Pancreatitis
Drewes AM, et al, Gut 2018 21
25 y female “ Small‐duct” CP: I need an Electrician ?
Recurrent abdominal pain Fluctuating pancreas enzymes Chronic Abdominal Pain
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19 year old “Big‐duct” CP: I need a Plumber ?
Recurrent abdominal pain Fluctuating pancreas enzymesChronic Abdominal Pain
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CP Pain is complex and incompletely understood
• Unraveling the mystery of pain in chronic pancreatitis– Burden of disease– Pathogenesis Unclear– Treatment …..empirical…….invasive methods…… variable outcomes– Peripheral sensitization– Central sensitization– Increased pancreatic nociception
Pasricha, J., Nat Rev Gastroenterol Hepatol. 2012 Jan 24;9(3):140‐51. 24
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Chronic pancreatic pain is a complex, multi-level Neuropathic pain syndromeDemir et al., Langenbecks Arch Surg 2011
•Cerebral cortex - Level 3•Cortical reorganization•Central sensitization
•Hyperalgesia•Allodynia
•Spinal / Peripheral - Level 2•DRG and spinal cord hypersensitivity
•Intrapancreatic - Level 1•Neuropathic mechanisms•Nociception
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The majority of CP Patients seen at Tertiary Centers exhibit Extra-pancreatic sources of Pain
Results of Differential Neuroaxial Blockade in Chronic Pancreatitis (n = 23)
Pain Type Number of Patients
Visceral 5 (22%)
Nonvisceral 18 (78%)Central 11Somatosensory 4Mixed 3
Total 23
Conwell, DL., Am J Gastroenterol 2001;96:431– 436 26
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Descending Inhibitory Pain Modulation is Impaired in patients with Chronic Pancreatitis
• 25 CP; 15 HS• Descending pain modulation assessment
– Noxious inhibitory control– Multimodal central processing– Evoked brain potentials after rectosigmoid stimulation
• Conclusion: CP impairments in pain modulation and central sensitization
• Treatment of pain should include pancreas and descending pain modulation from supraspinal structures and central nervous system sensitization
Olesen SS, etal., Clin Gastro Hep 2010 27
Healthy
ChronicPancreatitis
Olesen, SS et al., Pancreatology, 2011
There is Pain‐Associated Adaptive Cortical Reorganization in Chronic Pancreatitis
CP subjects respond differently to painful electrical stimulation of the sigmoid
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Brain metabolites were altered in patients with chronic pancreatitis. High level of glutamate in the anterior cingulate cortex was linked to increased perceived pain, which may indicate a hyperexcitability state of the
anterior cingulate cortex in painful chronic pancreatitis.
NeuroImage July 2019
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CP patients had altered functional connectivity within and between brain networks. AlteredDMN functional connectivity had an association to cerebral metabolic changes. Significance:Altered functional connectivity in CP share similarities with other chronic pain conditions, and neurological disorders such as Alzheimer and depression.
Functional MRI in CP
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Quantitative Sensory Testing
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• GWAS STUDY
• Fifteen loci associated with constant severe pain (p\0.00001) were found to be in or near depression‐associated genes including ROBO2, CTNND2, SGCZ, CNTN5 and BAIAP2.
• Approximately 18% of patients with chronic pancreatitis also experience depression • Pain can increase the severity of depression, and vice versa
• Our findings suggest that there is an overlap of depression‐associated genes andconstant‐severe pancreatic pain.
J Gastro 2020
Mechanism Based Approach to Chronic Pancreatitis Pain
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PERT may decrease CP pain by decreasing CCK mediated stimulation or improving digestion
• Uncoated preparations* – CCK‐RF mechanism– Trypsin mediated
• Coated preparations– maldigestion– Lipase mediated
• Metanalysis confounded by including both types of preparations**
*Slaff J, Gastroenterology 1984*Isaksson G, Dig Dis Sci 1983**Brown, A, Am J Gastroenterol 1997 35
Antioxidants have also been shown in RCTs to reduce CP pain in selected patient populations*
• Several randomized trials – Variable results– Different antioxidant
preparations– Heterogeneous populations
• Opiate addiction• Alcohol use• Variability in use of PERT • Prior pancreatic surgery• Different disease severities
– Varying duration of treatment
• Safe, non‐toxic– Worth considering *Bhardwaj P et al, Gastroenterology 2009
Siriwandena AK, Gastroenterology 2012Braganza JM. Gastroenterology 2013Talukdar R et al., Gastroenterology 2013*Dhingra R et al., Pancreas 2013 36
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Pregabalin reduces pain and improves QOL in chronic pancreatitis in a RCT
METHODS: • RCT, 64 patients • Pregabalin or placebo (control) for 3
consecutive weeks.
RESULTS: • Pregabalin, compared with placebo
• Pain relief after 3 weeks of treatment (36% vs 24%; P = .02).
• Improved health status was higher in the pregabalin than the control group (44% vs 21%; P = .048).
CONCLUSIONS: • In a placebo‐controlled trial, pregabalin is
an effective adjuvant therapy for pain in patients with CP.
Olesen SS et al, Gastroenterology 2011 37
Tramadol provides effective analgesia in a RCT with less gastrointestinal side effects than morphine for the treatment of CP Pain
• Tramadol vs. morphine– severe chronic pancreatitis pain – interaction with gut motor function.
• Oral dose titration – double‐blinded, RCT– 25 CP patients
• Outcomes: Pain intensity, Patient rated analgesiaResults• Tramadol had statistically favorable:
– Orocecal transit (P
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Long‐term enteral nutrition improves body weight and decreases abdominal pain in CP
• Retrospective, n=57
• Small‐bowel access was obtained by PEG/J in 53 patients and by DPEJ
• Duration of enteral feeding was 3‐6 months
• Average body weight significantly increased from 64.8 kg at day 1 to 69.1 kg at day 180 (p
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41JAMA January 2020
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Beger – Pain
Frey – QOL
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de-Madaria E, et al., Pancreatology 2013
NSAIDS
Pregabalin
Antioxidants
PERT
Tramadol
Early Invasive Therapy
Opioids
Late Invasive Therapy
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• Surgery > Endoscopy• ? Endoscopy• Antioxidant therapy• PERT not effective• Celiac Plexus Block• ? TPIAT
Am J Gastro March 2020
What do we tell our patients
• Lifestyle modificationAlcohol abstinence, smoking cessation
• Non‐narcotic ManagementGabapentin, PregabalinAntioxidants TramadolUncoated PERTPancreatic rest: NJ feeding or TPN
• Endoscopic Therapy + ESWL: short term, older patients, comorbidities
• Surgery: long term• Narcotic analgesics: Opiates, Pain Therapy Consultation, psychology,
anesthesia, detox / wean narcotic dose
46A.Cahen DL, NEJM 2007; Dite P, Endosc 2003
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CP Pain Management
• DEFINITIVE DIAGNOSIS• MECHANISTIC DEFINITION• Smoking, alcohol cessation • Psychological Assessment • Assess for Opioid Dependency • Mechanistic Pain Characterization
– Quantitative sensory testing– Nerve blockade (CPB or DNB)
• Antioxidants (50:50)• Tramadol (BEFORE NARCOTICS)• Pregabalin• WHO ANALGESIC LADDDER• Pancreatic Rest – NJ; TPN
• DUCT MORPHOLOGY• Surgical Therapy – Beger Procedure
– Large duct• Endoscopic Therapy
– Large duct, strictures, stones• Total Pancreatectomy with Islet cell transplantation
– Small duct, selected patients, psychiatry, chemical dependency, opioid dependence, support system
• RANDOMIZED TRIALS – Endpoints needed– Molecular targeted therapy – TRPV1, NGFs, Mast
cells, cytokines– Cognitive Behavioral Therapy– Drug Repurposing: NSAIDS, HMG CoA, CFTR
modulators – Celiac Block: newer agents 47
25 year old “Small duct” CP: I need an electrician ?
• Celiac plexus block• Deep Brain Stimulation
Study• Nasojejunal feeding x 3-4 mo• Total Parenteral Nutrition x
3-4 mo• Pain 6-8/10• Chronic Narcotics• SSRIs, TCAs
•1st Pancreas Center: EUS – 4 criteria / 1 hour Dreiling PFT = 50 meq/L ………………2 years later….•2nd Pancreas Center: EUS – 6 criteria / 1 hour ePFT = 48 meq/L
•Considering Total Pancreatectomy with Islet Cell Transplantation 48
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19 year old “Big duct” CP: I need a Plumber?
• Chronic Pain; Borderline Diabetes mellitus
• Exocrine Insufficiency: steatorrhea
• Fentanyl lollipops 800-1600 mcg every 6h
• Methadone 10-20 mg every 8 h
• Peustow procedure
•Frey Procedure - ineffective•Total Pancreatectomy with Islet Cell Transplant•Pain continues; “brittle” diabetes
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There is HOPE !!
Research Gaps and Opportunities
• Improve and accurate assessment of maldigestion and EPI.
• Establish simpler, less invasive tools to measure acinar and ductal cell function from more easily obtained biological specimens such as urine or blood to screen for pancreatic disease.
• Develop RAP and CP biomarkers that can be used to better de‐ fine the stage, determine prognosis, assess severity, and stratify patients for medical or surgical intervention using the mechanistic definition framework.
• Provide evidence‐based recommendations for proper dietary intake and the requirements for PERT (initiation, dose, timing, follow‐up).
• Develop enzyme products requiring fewer pills and with better compliance and potency.
Research Gaps and Opportunities
Develop long‐term primary acinar and ductal epithelial cell culture models.
Explore co‐culture models (eg, acinar‐duct, duct‐islet, acinar‐ islet) to identify factors that regulate exocrine cell function and restitution.
Define mechanisms by which gene mutations/variants cause pancreatic inflammation, ductal cell malfunction, and acinar cell loss.
Design novel therapies that target restoring pancreatic acinar cells and/or manipulate ductal cells (ie, gene and cell‐based therapies, CRISPR/Cas9, CFTR correctors and potentiators).
Develop experiments to determine the critical age and time for intervention to reestablish appropriate stem cell niches for cell‐based therapies in diseases that damage the exocrine pancreas.
Uc A., Pancreas 2016.
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Stanford U.
Baylor U.U.Texas - M.D. Anderson
U.PittsburghU.Iowa
U.Florida
Cedars Sinai LA
Ohio State U
Indiana U
Consortium for the Study of Chronic Pancreatitis Diabetes and Pancreatic Cancer
Mayo C
Kaiser F, UCSF
U Minnesota
I. Established the Largest Prospective cohort of CP: PROCEED
Yadav, D et al., Pancreas 2018.
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• Primary 1. To establish a model of longitudinal research cohort of
adults with CP and its complications2. To estimate the risk of progression to suspected CP to
definite CP, development of new‐onset diabetes and exocrine insufficiency in definite CP, and study how the risks are influenced by patient characteristics and conditions
3. To test predictive capability of candidate biomarkers for diagnosis and prognosis of CP
4. To develop a framework for conducting biomarker, genetic and mechanistic studies using clinical information and the biorepository developed as part of the longitudinal research cohort
• Secondary (several)
PROCEED Study Objectives
II. Established SOPs for collection of Biospecimens in CP cohort
Fisher W, et al., Pancreas 2018.
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III. Established SOPs for recordingCT and MRI findings of CP
Tirkes T, et al., Radiology 2018.
Current Recruitment Status ‐ PROCEED
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IV. Established the PROCEED Biorepository which is ready for use (>100,000 aliquots already)
• According to the PRoBE design
• Legacy samples outside of PROCEED also available for exploratory work
Characteristic
All Subjects
(N = 1254)Definite CP
(N = 528)RAP
(N = 283)AP
(N = 91)
IndeterminateCP
(N = 40)
ChronicAbdominal
Pain(N = 59)
No PancreasDiseaseControls(N = 253)
DemographicsAge (yr)* N (n-Missing) 1254 (0) 528 (0) 283 (0) 91 (0) 40 (0) 59 (0) 253 (0)
Mean (SD) 50.6 (13.6) 53.7 (12.6) 47.1 (13.7) 48.9 (13.9) 54.0 (11.6) 46.6 (13.5) 49.2 (14.6)
Gender Male 605 (48.2) 265 (50.2) 145 (51.2) 36 (39.6) 14 (35) 16 (27.1) 129 (51.0)
Ethnicity Non-Hispanic 1186 (94.6) 514 (97.3) 262 (92.6) 89 (97.8) 36 (90) 53 (89.8) 232 (91.7)
Race White 1039 (82.9) 450 (85.2) 238 (84.1) 76 (83.5) 33 (82.5) 46 (78.0) 196 (77.5)
ETOH Etiology1 Alcoholic Pancreatitis
273 (21.8) 204 (38.6) 50 (17.7) 17 (18.7) 2 (5) 0 (0) 0 (0)
All Others 605 (48.2) 284 (53.8) 221 (78.1) 66 (72.5) 30 (75) 4 (6.8) 0 (0)
Missing 68 (5.4) 40 (7.6) 12 (4.2) 8 (8.8) 8 (20) 0 (0) 0 (0)
Smoking2 Current 286 (22.8) 200 (37.9) 38 (13.4) 14 (15.4) 10 (25) 12 (20.3) 12 (4.7)
Past 338 (27.0) 162 (30.7) 80 (28.3) 26 (28.6) 7 (17.5) 11 (18.6) 52 (20.6)
Never 596 (47.5) 152 (28.8) 158 (55.8) 46 (50.5) 20 (50) 34 (57.6) 186 (73.5)
Missing 34 (2.7) 14 (2.7) 7 (2.5) 5 (5.5) 3 (7.5) 2 (3.4) 3 (1.2)
Packs/Day (ppd)3 n# 624 362 118 40 17 23 64< 1 363 (58.2) 199 (55.0) 70 (59.3) 25 (62.5) 4 (23.5) 14 (60.9) 51 (79.7)
>= 1 249 (39.9) 161 (44.5) 43 (36.4) 14 (35) 13 (76.5) 8 (34.8) 10 (15.6)
Decline to Answer 1 (0.2) 0 (0) 1 (0.8) 0 (0) 0 (0) 0 (0) 0 (0)
Do not know 11 (1.8) 2 (0.6) 4 (3.4) 1 (2.5) 0 (0) 1 (4.3) 3 (4.7)
DSMB Report 4/27/2020
Review of summary data ‐ PROCEED
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Chronic pancreatic pain is a complex, multi-level Neuropathic pain syndromeDemir et al., Langenbecks Arch Surg 2011
•Cerebral cortex - Level 3•Cortical reorganization•Central sensitization
•Hyperalgesia•Allodynia
•Spinal / Peripheral - Level 2•DRG and spinal cord hypersensitivity
•Intrapancreatic - Level 1•Neuropathic mechanisms•Nociception
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Methods: Single‐blinded randomized placebo‐controlled multicenter trial aims to enroll 260 youth (ages10–18) with ARP/CP and their parents from twenty‐one INSPPIRE (INternational Study Group of Pediatric Pancreatitis: In search for a cuRE) centers.
Web‐based cognitive behavioral pain management intervention (Web‐based Management of Adolescent Pain ChronicPancreatitis; WebMAP; N = 130) Vs.Web‐based pain education program (WebED; N = 130).
Assessments will be completed at baseline (T1), immediately after completion of the intervention (T2) and at 6 months post intervention(T3).
The primary study outcome is abdominal pain severity. Secondary outcomesinclude pain related disability, pain interference, health‐related quality of life, emotional distress, impact of pain, opioid use, and healthcare utilization.
Conclusions: This is the first clinical trial to evaluate the efficacy of a psychological pain intervention for children with CP for reduction of abdominal pain and improvement of health‐related quality of life. Findings will inform delivery of web‐based pain management and potentially identify patient‐specific biological and psychosocial factors associated with favorable response to therapy.
Web‐based Cognitive Behavioral Therapy (CBT)
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• Aim 1– To refine an existing internet‐delivered pain self‐management program for use in ADULT CP patients
• Aim 2– To conduct a pilot randomized controlled trial of the refined CBT program versus wait‐list control in adult CP patients to evaluate feasibility and acceptability
• Aim 3– To generate pilot data regarding effects of internet‐delivered CBT on symptoms and quality of life in adult CP patients
IMPACT Study – Pilot RCT
IMPACT StudyStudy sites and community recruitment
Clinic recruitment from the CPDPC sites:
Indiana UniversityMayo Clinic RochesterStanford UniversityOhio State UniversityUPMCUniversity of Minnesota
Social media recruitment through the National Pancreas Foundation (NPF)Facebook, Instagram, Twitter, NPF website and newsletters
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Measures/Outcomes• Brief Pain Inventory• PROMIS‐29 Profile• PANQOLI• SF‐12 Short Form Health Survey• Pain Disability Index• PROMIS Alcohol Use Short Form• Chronic Pain Self‐Efficacy Scale• Medication/Opioid Use• Online 7‐day pain diary• Qualitative interview
T1
Baseline assessment
T2
2 months following baseline
T3
3 months following T2
• Target = 30 participants• Randomized
• Wait list control vs. CBT
• Recruitment completed• 80% female• Age range: 23-72 years
IMPACT StudyCurrent Status and Future Plans
• Plans– Results expected Summer 2020
– Grant application anticipated based on results
Endoscopic Therapy on Quality of Life and Pain in Chronic Pancreatitis (The EQuiPP Study)
Samuel Han, MDThe Ohio State University
Aim 1: To assess the impact of pancreatic endotherapy on disease-specific quality of life and overall quality of life• Measure quality of life before and after endotherapy
Aim 2: To evaluate the impact of pancreatic endotherapy on pain and predict response to PET based on specific pain patterns• Measure pain levels before and after endotherapy• Use quantitative sensory testing to determine pain profile and identify
whether response to endotherapy can be predicted based on pain profile
Goal: Develop personalized, endoscopic approach to treatment in patients with chronic
pancreatitis
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FLOWCHART
Completion of pancreatic endotherapy
Initial Enrollment with baseline demographics, current pain medication use, PANcreatitis Quality of Life Instrument (PANQOLI), PROMIS-29, PROMIS Nociceptive Pain
Quality, PROMIS Neuropathic Pain Quality, Pain-related Self-Efficacy Scale, Concerns about Pain Short Form,
Quantitative Sensory Testing (QST) and Biorepository collection
Administer same questionnaires at 1, 3, 6, and 12 months follow-up and 2nd Biorepository collection at 6 months
Mechanism-based Approach to Pain in Chronic Pancreatitis (MAP-CP)
PI: Jami Saloman, PhdCo‐I: Liang Li, PhD and Dhiraj Yadav, MD, MPH
Hypothesis: Patient‐derived information (patient reports and biospecimens) can be used to identify mechanistic pain phenotype and inform management of CP‐related pain.
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Rationale
• Pain affects ~80% of CP patients• 2/3 of CP patients fail to achieve adequate relief• Involves nociceptive and/or neuropathic mechanisms• Efficacy of Interventions depend on pain mechanism• Neuropathic and nociceptive pain can involve distinct inflammatory mediators and neuromodulators
• Serum analysis of neuromodulators can distinguish nociceptive and neuropathic pain
MAP‐CPAim 1: Cross‐sectional Analysis of CP pain
1. Characterize pain phenotypes as determined by nociceptive and neuropathic PROMIS Q
2. Cross‐sectional analysis to Identify biochemical signature for each pain phenotype
3. Correlate with other pain or disease related factors (e.g. pain intensity, pain frequency, quality of life measures)
Aim 2: Longitudinal analysis of natural course of CP pain
1. Determine if pain phenotype changes between visit #1 and #2
2. Test biomarkers by determining if any changes in pain type (nociceptive, neuropathic, mixed) correlate with changes in serum or other pain related factors.
Fig 1. Preliminary analysis. The distribution of patients with definite CP by pain mechanism as determined via PROMIS® pain mechanism surveys. (n=267)
nociceptive onlyneuropathic only'mixed' painundetermined
38%
23% 5%
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•Intrapancreatic•neuropathic mechanisms•TRPV1, NGF inhibitors•Secretin washout (trypsin)•Antioxidants (inflammation)
•Extrapancreatic•DRG and spinal cord hypersensitivity•Enkephalin gene therapy•RFA, SC stimulation
•Cerebral cortex adaptation•Pregabalin Demir et al., Langenbecks Arch Surg 2011
Characterization of the CP Pain Syndrome may be Critical in Targeting Effective Neuropathic Therapy
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Modified from: Colombel J et al. Gastroenterology 2017;152:351-61
Window of Opportunity = “Minimal Change” – Early Stage …..CP
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Phase 1/2 Trial of Indomethacin in Chronic Pancreatitis (The PAIR Trial ‐ 1R21DK117212‐01A1 )
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Mayo Clinic and Ohio State
Abu Dayyeh BK, Conwell D, Buttar NS, et al. CGH 2015.Reding T, Bimmler D, Perren A, et al. Gut 2006
MCCP = Minimal Change Chronic Pancreatitis
Phase 1/2 Trial of Indomethacin in Chronic Pancreatitis (The PAIR Trial ‐ 1R21DK117212‐01A1 )
• Anti‐inflammatory drugs such as indomethacin, which decrease prostaglandin E2 (PGE2) production, could be repurposed to lessen the severity of CP.
• Prospective, RCT study, indomethacin or placebo will be given to patients with CP
• Pancreas juice and saliva PGE2 levels will be measured, in order to determine whether standard doses of indomethacin effectively suppress pancreatic PGE2 production
• Potential large scale, multicenter trials, with the goal of improving pain and quality of life in patients with this chronic illness.
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Phase 1/2 Trial of Indomethacin in Chronic Pancreatitis (The PAIR Trial‐1R21DK117212‐01A1 )
Mayo Clinic and Ohio State
PGE2 PGE2
Indomethacin
Mechanism Based Approach to Chronic Pancreatitis Pain: Quality of Life
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Indomethacin
Quantitative Sensory Testing
Surgical / endoscopic intervention
SSRI, TCAs
Endoscopy / ESWL
Uncoated PERT
Octreotide
Pregabalin
Tramadol
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The Ohio State University Division of Gastroenterology, Hepatology, and Nutrition: Section of Pancreatic Disorders
Diagnosis (endomicroscopy) and ablation of Pancreas CystsDr. Krishna (ACG, NPF, Orien)
Pancreas Cancer and Pancreatitis Immunology
Dr. Mace (KL2)
Obesity and Pancreas Cancer
Dr. Cruz‐Monserrate (R01, NPF, Orien, Pelotonia)
Nutrition and Metabolism ofChronic Pancreatitis
Dr. Hart (Medical Director)(U01, DK LRP)
Endoscopic Sphincterotomyin Acute Recurrent Pancreatitis
Dr. Groce (U01)
Autologous Islet Transplantation
in Chronic PancreatitisDr. Lara (R01)
Chronic Pancreatitis:Diagnosis and Treatment
Dr. Conwell (U01, R21)
The Ohio State University Division of Gastroenterology, Hepatology, and Nutrition: Section of Advanced Endoscopy and Section of Pancreatic Disorders
Diagnosis (endomicroscopy) and ablation of Pancreas CystsDr. Krishna (ACG, NPF, Orien)
Pancreas Cancer and Pancreatitis Immunology
Dr. Mace (KL2)
Obesity and Pancreas Cancer
Dr. Cruz‐Monserrate (R01, R21,NPF, Orien, Pelotonia)
Nutrition and Metabolism ofChronic Pancreatitis
Dr. Hart (Director Pancreatic Disorders)
(U01,U01 DK LRP)
Endoscopic Sphincterotomyin Acute Recurrent Pancreatitis
Dr. Groce (U01)
Autologous Islet Transplantation
in Chronic PancreatitisDr. Lara (R01)
Chronic Pancreatitis:Diagnosis and Treatment
Dr. Conwell (U01, U01 R21)
Acute Pancreatitis and Advanced Endoscopy
(Director Advanced Endoscopy)Dr. Papachristou (U01, U01)
Samuel Han Thomas RungeSajid Jalil
77
78
American College of Gastroenterology
10/9/2020
40
80
The Pain of Chronic Pancreatitis: There is Always Hope
NIH Consortium for the Study of Chronic Pancreatitis Diabetes and Pancreatic Cancer
79
80
American College of Gastroenterology
10/9/2020
41
81
The Pain of Chronic Pancreatitis: There is Always Hope
NIH Consortium for the Study of Chronic Pancreatitis Diabetes and Pancreatic Cancer
Questions?
Darwin L. Conwell, MD, MS, FACG
Jodie A. Barkin, MD
81
82
American College of Gastroenterology
10/9/2020
42
83
American College of Gastroenterology